Associate Professor School of Sciences

Qihang Liu, Associate Professor at the Department of Physics, SUSTC. Prof. Liu’s research interest is theoretical condensed matter physics and computational materials science, special focus is on novel physical properties induced by spin-orbit coupling, topological insulators, strong correlation physics, electronic and structural properties of crystals, surfaces, and interfaces, low-dimensional systems and nano-materials, and electron transport through nanostructures. Prof. Liu has published more than 30 peer-reviewed journal articles including Nat. Phys., PRX, PRL, PRB, Nano Lett., Adv. Func. Mater., and has received more than 2200 citations based on Google Scholar.

Personal Profile

Brief Introduction

Qihang Liu, Associate Professor at the Department of Physics, SUSTC. Prof. Liu’s research interest is theoretical condensed matter physics and computational materials science, special focus is on novel physical properties induced by spin-orbit coupling, topological insulators, strong correlation physics, electronic and structural properties of crystals, surfaces, and interfaces, low-dimensional systems and nano-materials, and electron transport through nanostructures. Prof. Liu has published more than 30 peer-reviewed journal articles including Nat. Phys., PRX, PRL, PRB, Nano Lett., Adv. Func. Mater., and has received more than 2200 citations based on Google Scholar.

 

Research Interests

Theoretical condensed matter physics and computational materials science:

• Novel physics induced by spin-orbit coupling, such as topological insulators, spin splittings (Rashba-type and Dresselhaus-type) and related electronic or optical properties.

• Atomic and electronic structure of crystals, defects, molecules and low-dimensional nanostructures, such as interfaces, heterostructures, graphene, silicene, carbon nanotube and transition-metal dichalcogenides.

• Novel electronic device simulation in nanoelectronics and spintronics, such as (spin-) field effect transistor, negative differential resistance, spin-filter, spin-valve, etc.

Educational Background

2007 – 2012: Ph. D. in Condensed Matter Physics, State Key Laboratory of Mesoscopic Physics and Department of Physics, Peking University, Beijing, China

2003 – 2007: Bachelor of Science, Department of Physics, Peking University, Beijing, China

Professional Experience

2018-Present: Associate Professor, Department of Physics, Southern University of Science and Technology
2013 – 2018: Research Associate Faculty, Renewable and Sustainable Energy Institute, University of Colorado, Boulder, CO
2012 – 2013: Postdoctoral fellow, Department of Physics and Astronomy, Northwestern University, Evanston, IL

 
Selected Publication

Q. Liu*, Q. Yao, Z. Kelly, C. Pasco, T. McQueen, S. Lany and A. Zunger, Electron Doping of Proposed Kagome Quantum Spin Liquid Produces Localized States in the Band Gap, Phys. Rev. Lett. 121, 186402 (2018).
• J. Zheng, G. Teng, J. Yang, M. Xu, Q. Yao, Z. Zhuo, W. Yang, Q. Liu* and F. Pan, Mechanism of Exact Transition Between Cationic and Anionic Redox Activities in Cathode Material Li2FeSiO4, J. Phys. Chem. Lett. 9, 6262 (2018).
• X. Zhang†, Q. Liu†, Q. Xu†, X. Dai and A. Zunger, Topological insulators vs. topological Dirac semimetals in honeycomb compounds, J. Am. Chem. Soc. 140, 13687 (2018).
• X. Zhou, Q. Liu*, Q. Wu, T. Nummy, H. Li, J. Griffith, S. Parham, J. Waugh, E. Emmanouilidou, B. Shen, O. Yazyev, N. Ni and D. Dessau, Coexistence of tunable Weyl points and topological nodal lines in ternary transition-metal telluride TaIrTe4, Phys. Rev. B 97, 241102(R) (2018).
• X. Zhang, L. B. Abdalla, Q. Liu* and A. Zunger, "Enabling electronic motif for topological insulation in ABO3 perovskites and its structural stability", Adv. Func. Mater. 27, 1701266 (2017).

Q. Liu* and A. Zunger, Predicted Realization of Cubic Dirac Fermion in Quasi-One-Dimensional Transition-Metal Mono-Chalcogenides, Phys. Rev. X 7, 021019 (2017).

• X. Zhou, Q. Liu*, J. A. Waugh, H. Li, T. Nummy, X. Zhang, X. Zhu, G. Cao, A. Zunger and D. S. Dessau. Predicted electronic markers for polytypes of LaOBiS2 examined via angular resolved photoemission spectroscopy, Phys. Rev. B 95, 075118 (2017).

Q. Liu*, X. Zhang, J. A. Waugh, D. S. Dessau and A. Zunger. Orbital mapping of energy bands and the truncated spin polarization in three-dimensional Rashba semiconductors, Phys. Rev. B 94, 125207 (2016).

Q. Liu*, X. Zhang and A. Zunger. Transforming common III-V and II-VI semiconductor compounds into topological heterostructures: The case of CdTe/InSb superlattices, Adv. Func. Mater. 26, 3259 (2016).

Q. Liu*, X. Zhang and A. Zunger. Polytypism in LaOBiS2-type compounds based on different three-dimensional stacking sequences of two-dimensional BiS2 layers, Phys. Rev. B 93, 174119 (2016).

Q. Liu*, X. Zhang and A. Zunger, Intrinsic circular polarization in centrosymmetric stacks of transition-metal dichalcogenides, Phys. Rev. Lett. 114,087402 (2015).

Q. Liu*, X. Zhang, L. B. Abdalla, A. Fazzio and A. Zunger, Switching a Normal Insulator into a Topological Insulator via Electric Field with Application to Phosphorene, Nano Lett. 15, 1222 (2015).

Q. Liu*, X. Zhang, H. Jin, K. Lam, J. Im, A. J. Freeman, et al. Search and design of nonmagnetic centrosymmetric layered crystals with large local spin polarization. Phys. Rev. B 91, 235204 (2015).

• X. Zhang†, Q. Liu†, J.-W. Luo, A. J. Freeman, A. Zunger, Hidden spin polarization in inversion-symmetric bulk crystals, Nat. Phys. 10, 387 (2014).

Q. Liu*, Y. Guo, A. J. Freeman, Tunable Rashba Effect in Two-dimensional LaOBiS2 Films: Ultra-thin Candidates for Spin Field Effect Transistors, Nano Lett. 13, 5264 (2013).

• Z. Ni, Q. Liu, K. Tang, J. Zheng, J. Zhou, R. Qin, Z. Gao, D. Yu and J. Lu, Tunable Bandgap in Silicene and Germanene, Nano Lett. 12, 113 (2012).

† Co-first author

* Corresponding author.

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Room 502, Huiyuan 1, No. 1088, Xueyuan Rd., Nanshan District, Shenzhen, Guangdong,China 518055

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0755-88018277

Email

liuqh@sustc.edu.cn

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